What is the Difference Between Equilibrium and Steady State?
🆚 Go to Comparative Table 🆚The difference between equilibrium and steady state lies in the characterization of a system's behavior over time. Here are the key distinctions:
- Equilibrium: In a system at equilibrium, all concentrations of reactants and products remain constant over time. This often occurs when the forward and backward reactions occur at the same rate. Equilibrium is a static process characterized by an equilibrium constant and does not have a time component.
- Steady State: A system is in a steady state when the state variables are constant over time, even though there is a flow through the system. In a steady state, the rates of processes leading to the increase of the concentration of a species are equal to the rates of processes leading to its decrease. Steady state is a kinetic process characterized by rates. A common example of a steady state is a bathtub with the drain open and water being added at the same rate that water is leaving.
In summary, equilibrium refers to a system where concentrations of reactants and products remain constant over time, while steady state refers to a system where state variables remain constant over time despite the presence of ongoing reactions or processes.
On this pageWhat is the Difference Between Equilibrium and Steady State? Comparative Table: Equilibrium vs Steady State
Comparative Table: Equilibrium vs Steady State
Here is a table comparing the differences between equilibrium and steady state:
| Feature | Equilibrium | Steady State |
|---|---|---|
| Definition | Equilibrium refers to a state where the forward and backward reactions occur at the same rate, resulting in constant concentrations of reactants and products. | Steady state describes a stage in a chemical reaction where the concentration of an intermediate species is constant due to the balance between the rates of the forward and reverse processes. |
| State | Equilibrium is a static process characterized by an equilibrium constant. | Steady state is a kinetic process characterized by rate constants. |
| Concentration | In equilibrium, all concentrations are constant over time. | In a steady state, the concentration of at least one species (the one at steady state) is constant as long as the source and sink rates are equal. |
| Time | Equilibrium represents a state where the forward and backward reactions have reached a balance, and the concentrations of reactants and products are constant over time. | Steady state does not imply equilibrium; it refers to a system's properties not changing with time, even though the system may be dynamically maintained by a source of energy. |
| Example | A common example of equilibrium is the behavior of weak acids and bases in aqueous solutions, where reactants continuously convert into products and vice versa. | A common example of steady state is driving a car at the same speed on a straight road for an extended period. |
In summary, equilibrium is a static state where the concentrations of reactants and products remain constant, while steady state is a dynamic condition where a system's properties do not change with time, even though the system may be maintained by a source of energy.
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- Chemical Kinetics vs Chemical Equilibrium
- Equilibrium Constant vs Equilibrium Position
- Equilibrium Constant vs Rate Constant
- Balance vs Stability
- Physical vs Chemical Equilibrium
- Homogeneous vs Heterogeneous Equilibrium
- Static Stability vs Dynamic Stability
- Big Bang Theory vs Steady State Theory
- Phase Diagram vs Equilibrium Diagram
- Ionic Equilibrium vs Chemical Equilibrium
- Equilibrium Constant vs Reaction Quotient
- Equilibrium Constant vs Formation Constant
- Stable vs Metastable
- Market Price vs Equilibrium Price